Global ETD Search

451	Analyse moléculaire du myélome: vers de nouvelles perspectives thérapeutiques De Vos, John 19 December 2001 (has links) (PDF) Le myélome multiple (MM) est une néoplasie hématopoïétique chimiosensible. Si une chimiothérapie intensive associée à une autogreffe de cellules souches hématopoïétiques permet de doubler la médiane de survie, la rechute reste cependant inéluctable et ce cancer est incurable à l'heure actuelle.<br />Plusieurs exemples ont montré récemment qu'une connaissance précise de la physiopathologie d'un cancer pouvait conduire à l'élaboration de traitements spécifiques. Ces nouveaux traitements anti-cancéreux ciblant un sous-groupe de tumeurs caractérisées par une altération moléculaire commune sont une voie de développement thérapeutique prometteuse.<br />Mon travail de thèse a consisté à étudier la biologie du MM dans une perspective de ciblage pharmacologique de la cellule plasmocytaire maligne. L'utilisation d'anticorps anti-gp130 agonistes a permis de montrer que l'activation de la signalisation par la chaîne gp130 du récepteur de l'interleukine-6 (IL-6) est indispensable à la survie et la prolifération des cellules de MM. En corollaire, l'interruption de cette voie de signalisation par la tyrphostin AG490, inhibiteur de la kinase JAK2, bloque la croissance et induit une apoptose dans les plasmocytes tumoraux. Des membranes comportant les ADNc de 268 gènes nous ont permis de rechercher l'expression des gènes d'autres cytokines et récepteurs de cytokines pouvant jouer un rôle dans la physiopathologie du MM. Nous avons mis en évidence dans des lignées de MM une boucle autocrine, cruciale pour la survie du plasmocyte tumoral, qui implique la cytokine HB-EGF et son récepteur ErbB1. Le développement d'un modèle de génération in vitro de plasmocytes normaux purifiés a permis ensuite la comparaison du transcriptome de plasmocytes tumoraux avec leur contrepartie normale par des puces à ADN analysant l'expression de 6800 gènes différents. De nombreux gènes sont différentiellement exprimés entre ces deux populations cellulaires et certains gènes surexprimés dans les cellules myélomateuses codent pour des protéines qui sont des cibles thérapeutiques potentielles, telles que ABL, CBS, RAR? ou RhoC.<br />La possibilité de comparer pour chaque malade le transcriptome des cellules tumorales par rapport à leur équivalent normal va permettre de progresser rapidement dans la compréhension des mécanismes impliqués dans l'émergence du clone tumoral et l'identification de nouvelles cibles thérapeutiques. Cette approche pourrait aboutir sur la mise en place d'un traitement « à la carte » du MM basé sur l'examen du transcriptome du clone tumoral de chaque patient. [SDV] Life Sciences [SDV:BC] Life Sciences/Cellular Biology [SDV:IMM] Life Sciences/Immunology myélome plasmocyte cytokine transcriptome puce à ADN
452	Inflammation in Atherosclerosis Jatta, Ken January 2006 (has links) <p>Consequences of atherosclerosis may result in a number of diseases of the cardiovascular system that represent serious health problems and major causes of morbidity and mortality worldwide. Although it is initially considered as disease of fibro-lipid and thrombus deposition in the arterial wall, it also involves an ongoing inflammatory response.</p><p>Normally, the inflammatory response is considered as a protective defence mechanism of the body. However, if the inflammation gets out of proportion to the threat it is dealing with, it may then result in a sustained chronic disorder and thus may underlie the initial stage of atherogenesis. The work of this thesis focuses on the expression of cytokines/chemokines and the vascular transcriptional response to inflammation, i.e. LPS in atherosclerosis. This has mainly been studied in animal models of atherosclerosis; consequently, we set out to investigate these events using human material in vitro (human carotid lesions).</p><p>Employing quantitative analysis, we were able to detect a significant induction of protein and mRNA of the cytokines IL-1β, IL-6, IL-10 and TNF-α and the chemokines IL-8 and MCP-1 by LPS in both atherosclerotic and non-atherosclerotic vessels. In contrast, LPS induction of TNF-α, IL-1β and IL-10 was solely observed in the lesions, but not in normal arteries. In addition, the impact of IL-1 gene polymorphism on the risk of myocardial infarction (MI) was estimated by DNA genotyping of 387 survivors of a first MI and 387 sex and age-matched control subjects. We found no statistically significant differences in either genotypic distribution or allelic frequencies of IL-1β (-511) or IL-1Ra (VNTR) polymorphisms between first-time survivors of myocardial infarction and their age-matched healthy controls. Incontrast, our results demonstrated a strong association between the IL-1Ra genotype and severity of angiographically determined coronary artery disease in post-MI patients. To further investigate the vascular response to inflammation, we used gene array analysis to evaluate the human vascular transcriptional response to LPS of non-atherosclerotic human renal arteries compared to carotid lesions. In LPS treated renal arteries, 54% of the transcripts gave a detectable signal, where 4% were upregulated and 3.8% down-regulated. In the LPS stimulated carotid lesions, 44% of transcripts were detected. In this latter group, 5.1% of transcripts were increased and 3.3% decreased. Interestingly, a newly identified virus-inducible antiviral protein, CMV inducible gene <sub>5</sub>/viperin (Cig<sub>5</sub>), was among the most strongly induced gene in both normal and atherosclerotic biopsies. Single gene analysis revealed viperin in the endothelium of human atherosclerotic lesions. Further, viperin was induced in vascular cells by inflammatory stimuli and CMV infection.</p><p>In conclusion we show that atherosclerotic vessels produce more proinflammatory cytokines/chemokines than normal vessels. Interestingly, our results indicate that LPS enhances the expression of cytokines/chemokines in a similar pattern both in lesions and normal arteries. However, the response is stronger in atherosclerotic lesions. Furthermore, our results suggest that genetic polymorphisms within the IL-1Ra loci may influence the severity of CAD. Finally, the CMV inducible gene <sub>5</sub>/viperin have been identified as a putative culprit molecule in vascular inflammation and atherosclerosis.</p> Atherosclerosis chemokine cytokine inflammation Lipopolysacchride Carotid lesion interleukin viperin/Cig5 smooth muscle cells Cardiovascular medicine Kardiovaskulär medicin
453	<i>In vitro</i> Studies of β-cell Death and Survival. Modulation by Adenoviral Vectors and Bcl-2 Overexpression Barbu, Andreea Roxana January 2004 (has links) <p>Type 1 diabetes is a multifactorial disease resulting from the selective destruction of insulin-producing β-cells within the pancreatic islets of Langerhans. The mechanisms of β-cell death are not fully understood but cytokines are important mediators of this process. In the present study we found that the combination of IL-1β, TNF-α and IFN-γ induced a nitric oxide-dependent disruption of the mitochondrial membrane potential in rat insulin-producing RINm5F-cells, which seems to be a necessary event for both RINm5F-cell apoptosis and necrosis. The antiapoptotic protein Bcl-2 was able to prevent cellular death in RINm5F cells, most probably by counteracting the mitochondrial permeability transition. These results pointed out the potential of such antiapoptotic genes as gene therapy tools, to allow enhanced resistance against autoimmune destruction of β-cells in type 1 diabetes. For this purpose we used a progesterone-antagonist (RU 486)-inducible gene transfer system to achieve an efficient and controlled Bcl-2 overexpression in primary rat β-cells. However, in our experience, prolonged <i>in vitro</i> culture revealed adenoviral-induced islet cell necrosis, a process that was not prevented by Bcl-2 overexpression. Moreover, we observed that specific adenoviral genotypes correlate with differential induction of necrosis in both human and rat pancreatic islet cells. Although human islet cells showed an increased resistance in terms of viral concentrations required for the induction of cell-toxicity, our results showed that they were unable to build up an efficient antiviral response following infection and that their survival was dependent on the exogenous addition of α-interferon.</p><p>In conclusion, adenoviral techniques for overexpression of antiapoptotic proteins in insulin-producing cells may provide useful tools against β-cell directed autoimmune destruction. However, understanding the specific interactions of the viral gene products with cellular proteins and how they are involved in β-cell death regulation is fundamental for an efficient and safe application of gene therapy approaches to type 1 diabetes.</p> Cell biology β-cell cytokine mitochondrial membrane potential Bcl-2 Adenoviral vector Adenovirus IFN-α Diabetes Cellbiologi Cell biology Cellbiologi
454	Cytokine-regulated eosinophil migration in inflammatory disorders : Clinical and experimental studies Lampinen, Maria January 2000 (has links) <p>The accumulation of eosinophil granulocytes (EOS) at sites of inflammation is a common feature of astma, allergic rhinitis and inflammatory bowel disease. The aim of the present investigation was to study the mechanisms involved in this accumulation.</p><p>Bronchoalveolar lavage (BAL) fluid obtained from patients with birch-pollen allergy lavaged during season exhibited increased eosinophil chemotactic activity compared with pre-season BAL fluid from the same patients. We identified IL-5, IL-8 and RANTES as the main eosinophil chemotactic agents in the BAL fluid. Only EOS from allergic donors responded to IL-8. IL-2 inhibited albumin-stimulated eosinophil migration towards buffer or chemoattractants. EOS from allergic subjects were less sensitive to this inhibition than EOS from normal subjects, and in vitro priming of the EOS with IL-5 prevented the inhibitory effect of IL-2. We therefore hypothesise that IL-2 acts as an autocrine regulator of EOS migration, and that this inhibitory effect may be down-regulated in allergy, resulting in increased migration of EOS towards chemotactic factors. The stimulation of eosinophil migration by albumin is mediated by PI3 kinase. Decreased expression of CD49d and CD49f caused by albumin may decrease the adhesiveness of the EOS, which in turn may facilitate migration. We found a higher chemotactic activity in perfusion fluids from patients with ulcerative colitis than from control patients. The chemotactic activity correlated with the concentrations of eosinophil granule proteins in the perfusion fluids. IL-5 and TNF-α were identified as two of the chemotactic agents in the perfusion fluid that were inhibited by steroid treatment. Agents with steroid-insensitive chemotactic activity remain to be identified.</p> Medical sciences Eosinophil cytokine migration inflammation asthma allergy inflammatory bowel disease ulcerative colitis MEDICIN OCH VÅRD MEDICINE MEDICIN
455	Cytokine-regulated eosinophil migration in inflammatory disorders : Clinical and experimental studies Lampinen, Maria January 2000 (has links) The accumulation of eosinophil granulocytes (EOS) at sites of inflammation is a common feature of astma, allergic rhinitis and inflammatory bowel disease. The aim of the present investigation was to study the mechanisms involved in this accumulation. Bronchoalveolar lavage (BAL) fluid obtained from patients with birch-pollen allergy lavaged during season exhibited increased eosinophil chemotactic activity compared with pre-season BAL fluid from the same patients. We identified IL-5, IL-8 and RANTES as the main eosinophil chemotactic agents in the BAL fluid. Only EOS from allergic donors responded to IL-8. IL-2 inhibited albumin-stimulated eosinophil migration towards buffer or chemoattractants. EOS from allergic subjects were less sensitive to this inhibition than EOS from normal subjects, and in vitro priming of the EOS with IL-5 prevented the inhibitory effect of IL-2. We therefore hypothesise that IL-2 acts as an autocrine regulator of EOS migration, and that this inhibitory effect may be down-regulated in allergy, resulting in increased migration of EOS towards chemotactic factors. The stimulation of eosinophil migration by albumin is mediated by PI3 kinase. Decreased expression of CD49d and CD49f caused by albumin may decrease the adhesiveness of the EOS, which in turn may facilitate migration. We found a higher chemotactic activity in perfusion fluids from patients with ulcerative colitis than from control patients. The chemotactic activity correlated with the concentrations of eosinophil granule proteins in the perfusion fluids. IL-5 and TNF-α were identified as two of the chemotactic agents in the perfusion fluid that were inhibited by steroid treatment. Agents with steroid-insensitive chemotactic activity remain to be identified. Medical sciences Eosinophil cytokine migration inflammation asthma allergy inflammatory bowel disease ulcerative colitis MEDICIN OCH VÅRD MEDICINE MEDICIN
456	In vitro Studies of β-cell Death and Survival. Modulation by Adenoviral Vectors and Bcl-2 Overexpression Barbu, Andreea Roxana January 2004 (has links) Type 1 diabetes is a multifactorial disease resulting from the selective destruction of insulin-producing β-cells within the pancreatic islets of Langerhans. The mechanisms of β-cell death are not fully understood but cytokines are important mediators of this process. In the present study we found that the combination of IL-1β, TNF-α and IFN-γ induced a nitric oxide-dependent disruption of the mitochondrial membrane potential in rat insulin-producing RINm5F-cells, which seems to be a necessary event for both RINm5F-cell apoptosis and necrosis. The antiapoptotic protein Bcl-2 was able to prevent cellular death in RINm5F cells, most probably by counteracting the mitochondrial permeability transition. These results pointed out the potential of such antiapoptotic genes as gene therapy tools, to allow enhanced resistance against autoimmune destruction of β-cells in type 1 diabetes. For this purpose we used a progesterone-antagonist (RU 486)-inducible gene transfer system to achieve an efficient and controlled Bcl-2 overexpression in primary rat β-cells. However, in our experience, prolonged in vitro culture revealed adenoviral-induced islet cell necrosis, a process that was not prevented by Bcl-2 overexpression. Moreover, we observed that specific adenoviral genotypes correlate with differential induction of necrosis in both human and rat pancreatic islet cells. Although human islet cells showed an increased resistance in terms of viral concentrations required for the induction of cell-toxicity, our results showed that they were unable to build up an efficient antiviral response following infection and that their survival was dependent on the exogenous addition of α-interferon. In conclusion, adenoviral techniques for overexpression of antiapoptotic proteins in insulin-producing cells may provide useful tools against β-cell directed autoimmune destruction. However, understanding the specific interactions of the viral gene products with cellular proteins and how they are involved in β-cell death regulation is fundamental for an efficient and safe application of gene therapy approaches to type 1 diabetes. Cell biology β-cell cytokine mitochondrial membrane potential Bcl-2 Adenoviral vector Adenovirus IFN-α Diabetes Cellbiologi Cell biology Cellbiologi
457	The Effects of HIV on the Regulation of IL-12 Family Cytokines, IL-12, IL-23, and IL-27 Production in Human Monocyte-derived Macrophages O'Hara, Shifawn R.K. 29 August 2012 (has links) IL-12 family cytokines IL-23 and IL-27 play an important role linking innate and adaptive immunity, and regulating T-cell responses. The production of IL-12, a structurally similar cytokine, is decreased in chronic HIV infection; therefore IL-23 and IL-27 may also be influenced by HIV infection. I hypothesized that HIV inhibits LPS-induced IL-23 and IL-27 production in human MDMs by suppressing the activation of signalling pathways regulating their expression. In vitro HIV-infection of MDMs did not have any effect on basal secretion of IL-23 or IL-27; however, HIV inhibited LPS-induced production of IL-12/23 p40 and IL-23 p19, and IL-27 EBI3 and IL-27 p28 mRNA expression, and IL-23, IL-12/23 p40 and IL-27 secretion. In order to evaluate the molecular mechanisms by which HIV inhibits IL-23 and IL-27 in LPS-stimulated MDMs, the signalling pathways regulating their expression were evaluated. The PI3K, p38 MAPK, and JNK MAPK pathways were found to positively regulate LPS-induced IL-27 secretion. Interestingly, in vitro HIV infection inhibited LPS-induced p38 and JNK MAPK activation in MDMs. In summary, I have shown that HIV inhibits IL-23 and IL-27 production in LPS-stimulated MDMs and that HIV may inhibit LPS-induced IL-27 production through the inhibition of p38 and JNK MAPK activation. It is currently unknown whether PKCs regulate LPS-induced IL-23 or IL-27 in human monocytes/macrophages. I demonstrated that classical PKCs differentially regulate LPS-induced IL-23 and IL-27 secretion within THP-1 cells, primary monocytes, and MDMs. Classical PKCs were found to positively regulate LPS-induced IL-12/23 p40 and IL-27 p28 mRNA expression and IL-12/23 p40, IL-23, and IL-27 secretion in primary human monocytes. Similarly, the classical PKCs were found to positively regulate IL-27 p28 mRNA expression and IL-27 secretion in THP-1 cells. However, classical PKCs did not regulate LPS-induced IL-27 production in MDMs, or LPS-induced IL-23 production in THP-1 cells. Overall, this demonstrates that classical PKCs differentially regulate LPS-induced IL-23 and IL-27 production in different myeloid cells. HIV monocyte macrophage cytokine IL-23 IL-27 IL-12 LPS signalling PI3K p38 MAPK JNK MAPK ERK MAPK PKC
458	Identification of an essential role of gp130 and STAT3 in endogenous neuroprotection Ueki, Yumi. January 2009 (has links) (PDF) Thesis (Ph. D.)--University of Oklahoma. / Bibliography: leaves 229-253.
459	Regulation of Natural Killer Cells: SHIP-1, 2B4, and Immunomodulation by Lenalidomide Fortenbery, Nicole Renee 01 January 2012 (has links) Natural Killer cells (NK) are critical components of the innate immune system. Often referred to by their morphology, these large granular lymphocytes (LGLs) are bone marrow-derived lymphocytes and can be found throughout the body. NK cells reside in the liver, lymph nodes, spleen, thymus, and mucosal-associated lymphoid tissues (MALT). Importantly, NK cells also circulate throughout the blood where they function as surveyors of the body and are armed to eliminate malignant, infected, damaged, or foreign cells. NK cells function by a dual receptor system. That is, NK receptors are broadly categorized as inhibitory or activating. It is a fine balance, or lack thereof, that dictates the function of an NK cell. Unlike their T and B cell adaptive counterparts, NK cell receptors (NKR) are germline encoded and do not undergo gene rearrangement. NKRs are expressed in a variegated but overlapping fashion such that different cell subsets in the NK compartment elaborate different combinations of activating and inhibitory NKR. Varying the array of NKRs used by each subset increases the potential specificities of the NK compartment, while retaining tolerance to self. Thus, a diverse and balanced NK cell receptor repertoire (NKRR) is extremely important in order for this lineage to respond to various immunologic challenges and to do so in a normal, effective manner. As we have previously shown, aberrations in the expression of NKRs or downstream signaling can lead to severe immune deficiency, as observed in SHIP-deficient mice. We also showed that in the absence of SHIP-1, 2B4 becomes highly upregulated, functioning as a dominant inhibitory receptor and rendering the SHIP-1-deficient NK cell unresponsive to complex tumor targets. Traditionally MHC-I inhibitory ligands are largely responsible for the regulation of NK function. However, we show here that 2B4, which mediates MHC-I-independent inhibition, is required for formation of a normal NKRR, NK homeostasis, and effector functions. Moreover, in the absence of 2B4 and SHIP-1, NK cells have improper licensing, or education. In addition to SHIP-1 and 2B4 we show that the nature of the MHC-I ligands also play a significant role in repertoire formation, NK effector functions, and NK cell education. As described above, NK cells are critical components of the immune system. Understanding how NK cell biology and function are regulated, or affected in the context of pathology is of high significance. NK function is often severely impaired in a diseased state, and more importantly, NK cells are frequently adversely affected by the treatments themselves. Here we sought out to determine the effects of an immunomodulating drug, lenalidomide, on the biology and function of healthy NK cells. Lenalidomide is a unique drug that displays immune enhancing functions yet can be cytotoxic to tumor cells. However, lenalidomide treatment can result in immune suppression and severe cytopenia, and has the ability to impair NK viability. We show here that if used in combination with cytokine treatment (e.g. IL-2 or IL-15), many of these negative affects can be overcome. Furthermore, we show that lenalidomide treatment results in what appears to be an NK activating phenotype with a down-modulation of inhibitory KIRs and upregulation of CD16. Lenalidomide also leads to a sustained and robust activation of STAT5 and consequential increase in perforin and granzyme B. Finally, we find that treatment with lenalidomide in combination with IL-2 or IL-15 enhances the expression of IL-Rβ and IL-2Rγ chains, a presumed mechanism of action, which may provide a positive feedback loop. These findings have important clinical application. We propose that using lenalidomide in combination with IL-15 can augment its immune activating effects, while minimizing unwanted cytopenias. cytokine therapy IMiDs Innate Immunity NK receptor repertoire STAT5 American Studies Arts and Humanities Immunology and Infectious Disease Oncology
460	Immune Modulation of Vascular Stiffening Majeed, Beenish January 2014 (has links) Vascular stiffening is defined as the reduced ability of the blood vessels to expand in response to an increase in blood pressure. Vascular stiffening is often not appreciated as a disease in and of itself but is important to recognize because it is considered a predictor of many cardiovascular disease states. Mechanisms of vascular stiffening remain largely unknown; however the immune system has been found to play major roles in cardiovascular disease and arterial remodeling. This dissertation therefore seeks to illustrate the role of the adaptive immune system in vascular stiffening. This has been done by modeling vascular stiffness in transgenic mice lacking an adaptive immune system as well as immunosuppression in normal mice using a novel method to stimulate regulatory T cells with a cytokine immune complex. We have found that inhibition of the immune system by the use of a genetic knockout (RAG 1 ⁻/⁻ mice) or suppression of an existing immune system with an IL-2/anti-IL-2 complex reduces the development of angiotensin II-induced vascular stiffening. This dissertation supports the role of the adaptive immune system, and particularly CD4⁺T cells, in the development of vascular stiffening as well as the protective roles of Tregs in the disease. It also highlights the use of the IL-2/anti-IL-2 complex as a new potential therapy for vascular stiffness. Therapeutics that suppress adaptive immune function may be beneficial in the treatment of vascular stiffening. IL-2 Complex Immune System Pulse Wave Velocity RAG 1 Vascular Stiffness Medical Pharmacology Cytokine Immune Complex

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